Developments in the production and quality control of poliovirus vaccines -- historical perspectives.

Using virus grown in monkey kidney cells, Salk and his colleagues developed an inactivated poliovirus vaccine (IPV) in 1952. A large-scale field trial showed the vaccine to be safe and highly immunogenic in children, but soon after the vaccine became generally available in 1955, cases of paralytic disease were reported in recipients. Investigations showed that almost all the cases occurred in children who had received vaccine from one particular manufacturer. Extensive studies attributed the disaster to problems with inactivation. Addition of a Seitz filtration step midway during formalin inactivation and extension of the inactivation period resulted in a safe vaccine. No further paralytic cases were observed following the use of several hundred million doses of this improved vaccine. Thus, IPV was safe and caused a dramatic decline in the incidence of poliomyelitis in countries where it was used. A second generation IPV is produced in fermentors using well-characterized cell strains or continuous cell lines. The major breakthrough in the development of live poliovirus vaccine was the application of tissue culture methods for virus attenuation. By 1959 several candidate live oral poliovirus vaccines (OPV) had been developed. These were clinically tested in millions of individuals and found to be safe and effective. Since the attenuated virus strains developed by Koprowski and Cox were more neurotropic in monkeys than the Sabin strains, only the latter was licensed in the USA in 1961 and endorsed shortly after by the World Health Organization (WHO). The widespread use of Sabin's OPV in many countries hastened the development of International Requirements by WHO for OPV in 1962 to define the criteria that ensured the uniformity of batches produced by different manufacturers. These have been updated continuously in light of new information and quality control procedures. Extensive field trials have shown the risk of OPV associated polio to be less than 0.3 per million doses administered.     

Environmental Poliovirus Surveillance during Oral Poliovirus Vaccine and Inactivated Poliovirus Vaccine Use in Córdoba Province,Argentina

This study compares the presence of environmental poliovirus in two Argentinean populations using oral poliovirus vaccine (OPV) or inactivated poliovirus vaccine (IPV). From January 2003 to December 2005, Córdoba City used IPV in routine infant immunizations, with the exception of intermittent OPV use in August 2005. Between May 2005 and April 2006, we collected weekly wastewater samples in Córdoba City and the province''s three major towns, which continued OPV use at all times. Wastewater samples were processed and analyzed for the presence of poliovirus according to WHO guidelines. During the months of IPV use in Córdoba City, the overall proportion of poliovirus-positive samples was 19%. During an intermittent switch from IPV to OPV, this proportion increased to 100% within 2 months. During the 3 months when IPV was reintroduced to replace OPV, a substantial proportion of samples (25%) remained positive for poliovirus. In the OPV-using sites, on average, 54% of samples were poliovirus positive. Seventy-seven percent of poliovirus isolates showed at least one mutation in the VP1-encoding sequence; the maximum genetic divergence from the Sabin strain was 0.7%. Several isolates showed mutations on attenuation markers in the VP1-encoding sequence. The frequency or type of virus mutation did not differ between periods of IPV and OPV use or by virus serotypes. This study indicates that the sustained transmission of OPV viruses was limited during IPV use in a middle-income country with a temperate climate. The continued importation of poliovirus and genetic instability of vaccine strains even in the absence of sustained circulation suggest that high poliovirus vaccine coverage has to be maintained for all countries until the risk of reintroduction of either wild or vaccine-derived poliovirus is close to zero worldwide.In the context of the near achievement of poliomyelitis eradication and anticipated cessation of oral poliovirus (PV) vaccine (OPV), the World Health Organization (WHO) has recommended the use of inactivated PV vaccine (IPV) in countries that have IPV production facilities or other countries where immunization programs fulfill certain financial and logistic criteria (37). IPV has been shown to be safe and immunogenic in children in both developed and developing countries.(34) IPV diminishes the excretion of PV by children challenged with the Sabin strain of PV only moderately. The questions of whether and to which extent Sabin PV that is reintroduced into a population immunized with IPV could establish circulation, mutate to vaccine-derived PV (VDPV), and consequently cause poliomyelitis remain important. No such emergence of VDPV in developed countries using IPV has been reported. However, suboptimal hygienic conditions and insufficient vaccine coverage in middle- or low-income countries could favor the establishment of PV circulation after reintroduction, as indicated by recent VDPV outbreaks in populations with low OPV coverage (27, 38).Argentina currently uses OPV in the childhood immunization program according to recommendations from the Pan-American Health Organization. The last case of poliomyelitis due to wild-type PV was reported in Argentina in 1984 and in Córdoba Province in 1971 (24). In Córdoba City, the capital of Córdoba Province, standalone IPV (Imovax Polio; Sanofi Pasteur) replaced OPV (Polioral; Novartis Vaccines) in the routine childhood immunization program (2, 4, and 6 months of age plus a booster at 18 months age) from 1 January 2003 to 31 December 2005, while the surrounding provinces continued to use OPV. Due to an IPV shortage between 10 August and 7 September 2005, OPV was used in the capital during this period. We conducted environmental PV surveillance in Córdoba Province from May 2005 to April 2006 to describe environmental PV circulation and molecular characteristics of PV depending on the vaccine used. In the present evaluation, we also describe the dynamic of PV circulation around the change of IPV-OPV-IPV-OPV in the capital. This observation can contribute evidence regarding the dynamics of PV circulation and its implication for global immunization policy after polio eradication.     

Sabin-IPV抗原性及免疫原性分析

目的比较3个不同厂家的Sabin-IPV抗原性及免疫原性特点。方法采用ELISA方法,利用血清型和抗原位点特异性的单克隆抗体检测Sabin株脊髓灰质炎病毒疫苗D抗原含量,分析疫苗相对D抗原含量和单克隆抗体的相对反应性,评估疫苗抗原性;利用大鼠体内效力试验分析Sabin株脊髓灰质炎病毒疫苗的免疫原性,评估疫苗效力。结果与英国国家c IPV标准品Pu91相比,3个厂家的Sabin株脊髓灰质炎病毒疫苗相对D抗原含量存在差异,其中C厂家的相对D抗原含量最高;3个厂家的血清Ⅰ型Sabin株脊髓灰质炎病毒疫苗抗原性差异无统计学意义;血清Ⅱ型中,除B厂家的Sabin株脊髓灰质炎病毒疫苗的抗原位点1的抗原性较弱以外,A、C其2个厂家的Sabin株脊髓灰质炎病毒疫苗抗原性差异无统计学意义;血清Ⅲ型中,3个厂家的Sabin株脊髓灰质炎病毒疫苗与抗原性差异有统计学意义。接种Sabin株脊髓灰质炎病毒疫苗的大鼠血清对Sabin株及Salk株病毒具有良好中和效力。结论除血清Ⅲ型外,血清Ⅰ型和Ⅱ型Sabin株脊髓灰质炎病毒疫苗的抗原性与疫苗免疫原性一致。ELISA检测疫苗抗原性的方法有望替代疫苗动物体内效力评价试验。     

Induction of mucosal immunity by inactivated poliovirus vaccine is dependent on previous mucosal contact with live virus

The inactivated poliovirus vaccine (IPV) is used for protection against poliomyelitis in The Netherlands. It is not clear, however, whether IPV vaccination can lead to priming of the mucosal immune system and the induction of IgA. It has been demonstrated that IPV vaccination is able to induce strong memory IgA responses in the serum of persons who have been naturally exposed to wild-type poliovirus. This has led to the hypothesis that IPV vaccination is able to induce poliovirus-specific IgA at mucosal sites in persons who have been previously primed with live poliovirus at mucosal sites. To test this hypothesis, the kinetics of the IgA response in serum and saliva after IPV vaccination were examined in persons previously vaccinated with oral poliovirus vaccine (OPV) or IPV. ELISA and enzyme-linked immunospot assays were used for the detection of poliovirus-specific IgA responses. In addition, B cell populations were separated on the basis of the expression of mucosal (alpha4beta7 integrin) and peripheral homing receptors (L-selectin). Parenteral IPV vaccination was able to boost systemic and mucosal IgA responses in previously OPV-vaccinated persons only. None of the previously vaccinated IPV recipients responded with the production of IgA in saliva. In agreement with this finding, a large percentage of the poliovirus-specific IgA-producing lymphocytes detected in previous OPV recipients expressed the alpha4beta7 integrin. It is concluded that IPV vaccination alone is insufficient to induce a mucosal IgA response against poliovirus. In mucosally (OPV-) primed individuals, however, booster vaccination with IPV leads to a strong mucosal IgA response.     

Regulation and standardization of IPV and IPV combination vaccines.

Inactivated poliovirus vaccine (IPV) is not only increasingly used on a global basis but also is a component of many combination vaccines. Standardization and control of IPV continues to be a challenge for manufacturers and regulators. A rat immunogenicity assay is currently recommended by many authorities, including WHO, as the definitive in vivo potency. Alternative in vitro assays to determine D-antigen content have been developed and are routinely used in some countries to assess IPV potency assay. However, the other less reliable in vivo immunogenicity assays are also used (e.g. monkey, chick). We review some of the regulatory challenges facing current and future IPV assessment, with a focus on the relevance of in vivo and in vitro tests, considerations for Sabin derived IPV and discussion of future efforts for standardization.     

Cold chain and virus‐free chloroplast‐made booster vaccine to confer immunity against different poliovirus serotypes

The WHO recommends complete withdrawal of oral polio vaccine (OPV) type 2 by April 2016 globally and replacing with at least one dose of inactivated poliovirus vaccine (IPV). However, high‐cost, limited supply of IPV, persistent circulating vaccine‐derived polioviruses transmission and need for subsequent boosters remain unresolved. To meet this critical need, a novel strategy of a low‐cost cold chain‐free plant‐made viral protein 1 (VP1) subunit oral booster vaccine after single IPV dose is reported. Codon optimization of the VP1 gene enhanced expression by 50‐fold in chloroplasts. Oral boosting of VP1 expressed in plant cells with plant‐derived adjuvants after single priming with IPV significantly increased VP1‐IgG1 and VP1‐IgA titres when compared to lower IgG1 or negligible IgA titres with IPV injections. IgA plays a pivotal role in polio eradication because of its transmission through contaminated water or sewer systems. Neutralizing antibody titres (~3.17–10.17 log₂ titre) and seropositivity (70–90%) against all three poliovirus Sabin serotypes were observed with two doses of IPV and plant‐cell oral boosters but single dose of IPV resulted in poor neutralization. Lyophilized plant cells expressing VP1 stored at ambient temperature maintained efficacy and preserved antigen folding/assembly indefinitely, thereby eliminating cold chain currently required for all vaccines. Replacement of OPV with this booster vaccine and the next steps in clinical translation of FDA‐approved antigens and adjuvants are discussed.     

Systematic Review of Mucosal Immunity Induced by Oral and Inactivated Poliovirus Vaccines against Virus Shedding following Oral Poliovirus Challenge

Inactivated poliovirus vaccine (IPV) may be used in mass vaccination campaigns during the final stages of polio eradication. It is also likely to be adopted by many countries following the coordinated global cessation of vaccination with oral poliovirus vaccine (OPV) after eradication. The success of IPV in the control of poliomyelitis outbreaks will depend on the degree of nasopharyngeal and intestinal mucosal immunity induced against poliovirus infection. We performed a systematic review of studies published through May 2011 that recorded the prevalence of poliovirus shedding in stool samples or nasopharyngeal secretions collected 5–30 days after a “challenge” dose of OPV. Studies were combined in a meta-analysis of the odds of shedding among children vaccinated according to IPV, OPV, and combination schedules. We identified 31 studies of shedding in stool and four in nasopharyngeal samples that met the inclusion criteria. Individuals vaccinated with OPV were protected against infection and shedding of poliovirus in stool samples collected after challenge compared with unvaccinated individuals (summary odds ratio [OR] for shedding 0.13 (95% confidence interval [CI] 0.08–0.24)). In contrast, IPV provided no protection against shedding compared with unvaccinated individuals (summary OR 0.81 [95% CI 0.59–1.11]) or when given in addition to OPV, compared with individuals given OPV alone (summary OR 1.14 [95% CI 0.82–1.58]). There were insufficient studies of nasopharyngeal shedding to draw a conclusion. IPV does not induce sufficient intestinal mucosal immunity to reduce the prevalence of fecal poliovirus shedding after challenge, although there was some evidence that it can reduce the quantity of virus shed. The impact of IPV on poliovirus transmission in countries where fecal-oral spread is common is unknown but is likely to be limited compared with OPV.     

A vision of a world without polio: the OPV cessation strategy.

Once the eradication of wild poliovirus has been confirmed, the public health benefits of routine immunization with OPV will no longer outweigh the burden of disease either due to paralysis caused by OPV (vaccine associated paralytic polio), or by outbreaks caused by circulating vaccine-derived polioviruses. The eventual cessation of OPV use in routine immunization programmes worldwide will become necessary to assure a lasting eradication of polio. As the world moves towards polio eradication and its certification, preparations are therefore being intensified for OPV cessation, and the risk management framework for safe OPV cessation is being put in place. The framework includes bio-containment of all known poliovirus and potentially infected substances, development of an international stockpile of oral polio vaccine, ensuring a mechanism for continued global surveillance and response for polio after eradication has been certified, and national policies if countries decide to continue vaccinating with inactivated polio vaccine (IPV). It is ironic that the vaccine on which the world has depended for polio eradication will itself become a risk to eradication once the transmission of wild poliovirus has been interrupted. Final preparations for the eventual global and simultaneous cessation of OPV will require the same level of international cooperation and coordination that has brought the world to the verge of polio eradication.     

Circulating Vaccine Derived Polio Viruses and their Impact on Global Polio Eradication

Poliomyelitis vaccination via live Oral Polio Vaccine (OPV) suffers from the inherent problem of reversion: the vaccine may, upon replication in the human gut, mutate back to virulence and transmissibility resulting in circulating vaccine derived polio viruses (cVDPVs). We formulate a general mathematical model to assess the impact of cVDPVs on prospects for polio eradication. We find that for OPV coverage levels below a certain threshold, cVDPVs have a small impact in comparison to the expected endemic level of the disease in the absence of reversion. Above this threshold, the model predicts a small but significant endemic level of the disease, even where standard models predict eradication. In light of this, we consider and analyze three alternative eradication strategies involving a transition from continuous OPV vaccination to either continuous Inactivated Polio Vaccine (IPV), pulsed OPV vaccination, or a one-time IPV pulse vaccination. Stochastic modeling shows continuous IPV vaccination is effective at achieving eradication for moderate coverage levels, while pulsed OPV is effective if higher coverage levels are maintained. The one-time pulse IPV method may also be a viable strategy, especially in terms of the number of vaccinations required and time to eradication, provided that a sufficiently large pulse is practically feasible. More investigation is needed regarding the frequency of revertant virus infection resulting directly from vaccination, the ability of IPV to induce gut immunity, and the potential role of spatial transmission dynamics in eradication efforts. B.G. Wagner’s research is supported by the Natural Sciences and Engineering Research Council of Canada (NSERC) Doctoral Scholarship. D.J.D. Earn’s research is supported by the Canadian Institutes of Health Research (CIHR), Natural Sciences and Engineering Research Council of Canada (NSERC) and the J.S. McDonnell Foundation.     

Stability testing of vaccines: Developing Countries Vaccine Manufacturers' Network (DCVMN) perspective

Stability testing is an integral part of the vaccine manufacturing process and is crucial for the success of immunization programs. WHO (World Health Organization) has recently published guidelines on the stability testing of vaccines. These guidelines enlist scientific basis and principles for stability testing at various stages like development, pre-clinical, clinical, licensing, lot release and post-licensure monitoring. DCVMN (Developing Countries Vaccine Manufacturers' Network) is an international body of developing countries vaccine manufacturers and has viewpoints on technical and administrative issues in stability testing of vaccines. We here highlight viewpoints, possible roles and global expectations of DCVMN in the area of stability testing of vaccines.     

Public vaccine manufacturing capacity in the Latin American and Caribbean region: Current status and perspectives

The vaccine global market is currently growing at a rate of 16.52%. Nowadays the vaccine manufacturing industry is limited in the sense that not all vaccine manufacturers have the capacity to execute all the steps necessary to produce a successful product. The biological variation inherent to vaccine manufacturing and the initial investment required to bring a vaccine to the market are some of the factors that discourage vaccine manufacturing initiatives.Given the current global context in vaccine innovation and production, and the increasing participation of vaccine manufacturers from developing countries in global markets, this paper aims to review vaccine manufacturing capacity in Latin American and Caribbean (LAC) countries with specific focus on trends in national or public sector manufacturing, presenting current challenges and future opportunities for the sector in meeting national and regional (LAC) needs.Despite the overall low vaccine manufacturing capacity reported within the LAC region within this paper, it is considered that the relatively high and concentrated capacity that exists within a number of countries, combined with political commitment of all countries within the Region, can provide the necessary platform for the continued development of capacity in vaccine development and manufacture within LAC.     

Production, testing and perspectives of IPV and IPV combination vaccines: GSK biologicals' view.

GSK Biologicals has been involved in the production of Polio vaccine since the early start of Polio vaccination, beginning with the first generation of Inactivated Polio Vaccine (IPV). Over time, the company has developed solid industrial experience and knowledge that significantly contributes today to the quality of our Polio vaccines. GSK Biologicals' current IPV is now routinely produced according to the process defined by Van Wezel (RIVM) in the late seventies, using Vero cells and micro-carrier technology in bioreactors. In addition to compliance with current requirements (World Health Organization, European Pharmacopoeia, Code of Federal Regulations USA), the quality of the routine vaccine is guaranteed by numerous additional data related to the characterization, to the consistency, and to the validation of the process and the testing. This supplementary data package will allow, for instance, for the application of the in vitro potency testing for routine release instead of the in vivo testing. The present views on the Polio vaccine strategy for the post eradication era have portrayed a very limited role for the current IPV. The main reasons relate to post-eradication bio-containment needs and to production capacity and costs. A reevaluation of the classic approach taken to the use of the current IPV produced from wild type polio strains positions this vaccine as a real alternative to other strategies, allowing us to take advantage of the excellent performance of IPV over many years.     

Some ethical issues arising from polio eradication programmes in India

The World Health Organisation's programme for the eradication of poliomyelitis as currently practised in India raises many ethical issues. In this paper we concentrate on just two. The first is the balance to be struck between the risks and benefits generated by the eradication programme itself. The issue of risks and benefits arises in relation to the choice between two different vaccine types available for polio programmes: oral polio vaccine (OPV) and inactivated polio vaccine (IPV). OPV is the vaccine currently used in the eradication campaign in India. We argue that given the current risks/benefits profile of this vaccine, there is an urgent need to review the programme and take remedial action to address existing problems (at least in India). The second issue we discuss is the fact that there is little effort to gain the informed consent of the parents of vaccinated children, as they are not currently told about the potential limitations of OPV or the possibility of vaccine-induced harm. We suggest that such a policy might be justifiable, given the importance of polio eradication, but only if there is a system of compensation for vaccine-induced harm as part of the eradication programme itself. There is a real danger that if these issues are not addressed then public trust in the eradication programme and vaccination programmes as a whole will be lost.     

Licensing of monovalent OPV1 vaccine.

The key steps in the successful accelerated licensure of monovalent type 1 oral polio vaccine (mOPV1) of Sanofi Pasteur in Egypt required innovative parallel track evaluation from the National Regulatory Authorities (NRA), both in producing and receiving countries. The standard package of regulatory data was requested and submitted simultaneously in France and Egypt, and to WHO for prequalification purposes. The main concern of the Egyptian NRA has been thermal stability of the vaccine because it will be used in very hot conditions. However, data from the field suggest that mOPV1 has a stability profile similar to trivalent OPV (tOPV). Surveillance for Vaccine Associated Paralytic Polio (VAPP) will be important in development in tropical countries during the early introduction of mOPV since little or no recent data are currently available.     

中国婴儿中脊灰母传抗体水平对两种疫苗免疫效果的影响

为了了解2月龄婴儿中针对脊髓灰质炎病毒的中和抗体水平,并探讨母传抗体对脊髓灰质炎减毒活疫苗(OPV)和灭活疫苗(IPV)免疫效果的影响。对416名2月龄婴儿分别接种OPV和IPV,采集免疫前后血清,用微量中和法检测血清中Ⅰ、Ⅱ、Ⅲ型脊髓灰质炎病毒中和抗体滴度,评价抗体GMT水平及4倍增长情况。检测结果显示,2月龄婴儿母传抗体Ⅰ、Ⅱ、Ⅲ型阳性率分别为45%、38.2%和17.5%,抗体GMT水平为9.0、8.1和5.2。经接种两组疫苗后,母传抗体阳性者与阴性者免后抗体GMT水平相比,OPV组无明显差异,IPV组阳性者略低于阴性者。在免前抗体滴度<1∶32人群中,OPV组免后抗体滴度4倍增长率及几何滴度增长倍数分别为:Ⅰ型93.6%、71.2;Ⅱ型98.2%、43.7;Ⅲ型91.7%、47.9;IPV组免后抗体滴度4倍增长率及几何滴度增长倍数分别为:Ⅰ型82%、9.4;Ⅱ型62.8%、5.1;Ⅲ型95.6%、11.7;在免前抗体滴度1∶32～1∶128人群中,OPV组Ⅰ型92.3%、23;Ⅱ型86.4%、13.9;Ⅲ型55.6%、4.1;IPV组Ⅰ型48%、2.5;Ⅱ型15%、0.9;Ⅲ型55.6%、2.7。目前中国2月龄婴儿免前脊灰抗体阳性率较高,尤其是Ⅰ、Ⅱ型。脊灰母传抗体对两种疫苗免疫效果有一定干扰,对IPV疫苗的影响较为明显。     

Next Generation Inactivated Polio Vaccine Manufacturing to Support Post Polio-Eradication Biosafety Goals

Worldwide efforts to eradicate polio caused a tipping point in polio vaccination strategies. A switch from the oral polio vaccine, which can cause circulating and virulent vaccine derived polioviruses, to inactivated polio vaccines (IPV) is scheduled. Moreover, a manufacturing process, using attenuated virus strains instead of wild-type polioviruses, is demanded to enhance worldwide production of IPV, especially in low- and middle income countries. Therefore, development of an IPV from attenuated (Sabin) poliovirus strains (sIPV) was pursued. Starting from the current IPV production process based on wild type Salk strains, adaptations, such as lower virus cultivation temperature, were implemented. sIPV was produced at industrial scale followed by formulation of both plain and aluminium adjuvanted sIPV. The final products met the quality criteria, were immunogenic in rats, showed no toxicity in rabbits and could be released for testing in the clinic. Concluding, sIPV was developed to manufacturing scale. The technology can be transferred worldwide to support post polio-eradication biosafety goals.     

甲型H1N1流感疫苗生产用工作毒种的质量控制

根据中国药典2005年版三部和WHO"人用大流行流感疫苗制备的指导原则"相关要求,以及各企业的申报规程,对全国10家甲型H1N1流感疫苗生产企业工作毒种A/Californ ia/07/2009 NYMC X-179A进行毒种检定,结果均符合中国药典2005年版三部和各企业申报规程的要求。     

Workshop on Animal free Detection of Pertussis Toxin in Vaccines--Alternatives to the Histamine Sensitisation Test

The Paul-Ehrlich-Institut (PEI), the Nederlands Vaccin Instituut (NVI) and the European Directorate for the Quality of Medicines & HealthCare (EDQM) organised the international scientific workshop "Animal free Detection of Pertussis Toxin in Vaccines--Alternatives to the Histamine Sensitisation Test" at the PEI in Langen (Germany) on 09-10 June 2011. Twenty-seven experts (regulators, representatives from national control laboratories, vaccine manufacturers and academia) from 7 countries participated in this workshop. The meeting was triggered by the lack of satisfaction with the current safety testing for acellular pertussis vaccines, the "Histamine Sensitisation Test" (HIST) in mice, and the growing attention for the alternatives under development. The workshop objectives were: a) to review the current status of available alternative methods, b) to discuss the sensitivity that an alternative test needs, c) to plan experiments that allow for comparison of the alternative tests. The results of the workshop are summarised in this meeting report.     

Environmental Surveillance of Poliovirus in Sewage Water around the Introduction Period for Inactivated Polio Vaccine in Japan

Environmental virus surveillance was conducted at two independent sewage plants from urban and rural areas in the northern prefecture of the Kyushu district, Japan, to trace polioviruses (PVs) within communities. Consequently, 83 PVs were isolated over a 34-month period from April 2010 to January 2013. The frequency of PV isolation at the urban plant was 1.5 times higher than that at the rural plant. Molecular sequence analysis of the viral VP1 gene identified all three serotypes among the PV isolates, with the most prevalent serotype being type 2 (46%). Nearly all poliovirus isolates exhibited more than one nucleotide mutation from the Sabin vaccine strains. During this study, inactivated poliovirus vaccine (IPV) was introduced for routine immunization on 1 September 2012, replacing the live oral poliovirus vaccine (OPV). Interestingly, the frequency of PV isolation from sewage waters declined before OPV cessation at both sites. Our study highlights the importance of environmental surveillance for the detection of the excretion of PVs from an OPV-immunized population in a highly sensitive manner, during the OPV-to-IPV transition period.     

The Brazilian vaccine manufacturers' perspective and its current status

This article aims to give an overview of the current situation and perspectives for the Brazilian vaccine manufacturers, who play strong roles for developing countries in this field.The research, development and production of immunobiologicals in Brazil, especially vaccines for human use, is mainly supported by governmental institutions linked to the Ministry of Health as part of a strategy that prioritizes the public sector for access to vaccines and other biologicals that are regarded essential for the population.As a result, 83% of the vaccines required in 2007 were provided by national vaccine producers and only 17% were imported, mainly to reference centers for special vaccines that were used for special patients. Moreover, the country has actively exported yellow fever vaccine since 2002 and meningitis AC vaccine since 2007, having covered more than 60 nations.The perspectives have positively increased due to the government's policy of making internal investments, not only to avoid the external dependence of products for public health, but also to strengthen the Brazilian industrial sector related to biotechnology.